Mario A. Moscarello scite author profile

The etiology of multiple sclerosis (MS) is considered to involve genetic, environmental, infective, and immunological factors which affect the integrity of a normally assembled myelin sheath, either directly or indirectly resulting in demyelination. In a correlative study involving protein chemical, mass spectrometric, and electron microscopic techniques we have determined that myelin obtained from victims of MS is arrested at the level of the first growth spurt (within the first 6 yr of life) and is therefore developmentally immature. The data supporting this conclusion include (a) the pattern of microheterogeneity of myelin basic protein (MBP); (b) the NH2-terminal acylation of the least cationic component of MBP ("C-8"); (c) the phase transition temperature (TJ) of myelin isolated from victims of MS correlated with the increased proportion of the least cationic component of MBP; and (d) immunogold electron microscopy using an antibody specific for "C-8" showed that the distribution of gold particles in a 2-yr-old infant was similar to the distribution found in a victim of MS. We postulate that this developmentally immature myelin is more susceptible to degradation by one or a combination of factors mentioned above, providing the initial antigenic material to the immune system. (J. Clin. Invest 1994.94:146-154.)

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The Role of Citrullinated Proteins Suggests a Novel Mechanism in the Pathogenesis of Multiple Sclerosis

Moscarello

2006

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The pathogenesis of MS is unknown. In our studies, we have demonstrated an important role for citrullinated myelin basic protein (MBP). The accompanying loss of positive charge compromises the ability of MBP to interact with the lipid bilayer. The conversion of arginine to citrulline in brain is carried out by an enzyme peptidyl arginine deiminase (PAD) 2. The amount of PAD 2 in brain was increased in MS normal-appearing white matter. The mechanism responsible for this increase involved hypomethylation of the promoter region in the PAD 2 gene in MS, but no change (compared to normal) was found in thymus tissue DNA from the same MS patients. In addition, no change was observed in other neurological diseases, including Alzheimer's, Parkinson's, and Huntington's. We propose that citrullinated MBP, resulting from elevated levels of PAD 2 represents an important biochemical pathway in the pathogenesis of MS.

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Increased Citrullination of Histone H3 in Multiple Sclerosis Brain and Animal Models of Demyelination: A Role for Tumor Necrosis Factor-Induced Peptidylarginine Deiminase 4 Translocation

Mastronardi¹,

Wood²,

Jiang³

et al. 2006

J. Neurosci.

227

173

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Modification of arginine residues by citrullination is catalyzed by peptidylarginine deiminases (PADs), of which five are known, generating irreversible protein structural modifications. We have shown previously that enhanced citrullination of myelin basic protein contributed to destabilization of the myelin membrane in the CNS of multiple sclerosis (MS) patients. We now report increased citrullination of nucleosomal histones by PAD4 in normal-appearing white matter (NAWM) of MS patients and in animal models of demyelination. Histone citrullination was attributable to increased levels and activity of nuclear PAD4. PAD4 translocation into the nucleus was attributable to elevated tumor necrosis factor-␣ (TNF-␣) protein. The elevated TNF-␣ in MS NAWM was not associated with CD3 ϩ or CD8 ϩ lymphocytes, nor was it associated with CD68 ϩ microglia/macrophages. GFAP, a measure of astrocytosis, was the only cytological marker that was consistently elevated in the MS NAWM, suggesting that TNF-␣ may have been derived from astrocytes. In cell cultures of mouse and human oligodendroglial cell lines, PAD4 was predominantly cytosolic but TNF-␣ treatment induced its nuclear translocation. To address the involvement of TNF-␣ in targeting PAD4 to the nucleus, we found that transgenic mice overexpressing TNF-␣ also had increased levels of citrullinated histones and elevated nuclear PAD4 before demyelination. In conclusion, high citrullination of histones consequent to PAD4 nuclear translocation is part of the process that leads to irreversible changes in oligodendrocytes and may contribute to apoptosis of oligodendrocytes in MS.

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Effects of proteins on the thermotropic phase transitions of phospholipid membranes

Papahadjopoulos

Moscarello

Eylar

et al. 1975

Biochimica et Biophysica Acta (BBA) - Biomembranes

442

152

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Deimination of Myelin Basic Protein. 1. Effect of Deimination of Arginyl Residues of Myelin Basic Protein on Its Structure and Susceptibility to Digestion by Cathepsin D

et al. 2000

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The effect of deimination of arginyl residues in bovine myelin basic protein (MBP) on its susceptibility to digestion by cathepsin D has been studied. Using bovine component 1 (C-1) of MBP, the most unmodified of the components with all 18 arginyl residues intact, we have generated a number of citrullinated forms by treatment of the protein with purified peptidylarginine deiminase (PAD) in vitro. We obtained species containing 0-9.9 mol of citrulline/mol of MBP. These various species were digested with cathepsin D, a metalloproteinase which cleaves proteins at Phe-Phe linkages. The rate of digestion compared to component 1 was only slightly affected when 2.7 or 3.8 mol of citrulline/mol of MBP was present. With 7.0 mol of citrulline/mol of MBP, a large increase in the rate of digestion occurred. No further increase was observed with 9.9 mol of citrulline/mol of MBP. The immunodominant peptide 43-88 (bovine sequence) was released slowly when 2.7 and 3.8 mol of citrulline/mol of MBP was present, but it was released rapidly when 7.0 mol of citrulline/mol of MBP was present. The dramatic change in digestion with 7.0 mol of citrulline/mol of MBP or more could be explained by a change in three-dimensional structure. Molecular dynamics simulation showed that increasing the number of citrullinyl residues above 7 mol/mol of MBP generated a more open structure, consistent with experimental observations in the literature. We conclude that PAD, which deiminates arginyl residues in proteins, decreases both the charge and compact structure of MBP. This structural change allows better access of the Phe-Phe linkages to cathepsin D. This scheme represents an effective way of generating the immunodominant peptide which sensitizes T-cells for the autoimmune response in demyelinating disease.

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Some new developments in solid-state nuclear magnetic resonance spectroscopic studies of lipids and biological membranes, including the effects of cholesterol in model and natural systems

Forbes¹,

Bowers²,

Shan³

et al. 1988

J. Chem. Soc., Faraday Trans. 1

111

119

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High-field proton magic-angle sample-spinning (MAS) nuclear magnetic resonance (NMR) spectroscopy is shown to yield high-resolution 'H spectra of smectic, nematic and hexagonal-I1 phase lipids, from which isotropic chemical shifts, order parameters and relaxation times (q, qp and T,) can be determined. Such experiments are possible because of the special form of the dipolar Hamiltonian in such systems. Resolution is about the same as that obtained with sonicated systems, using conventional NMR techniques. We also show that 13C MAS NMR spectra, of both fluid and solid phases, are even better resolved, and in some cases resonances can be observed in MAS NMR spectra which are not observable in sonicated systems. For example, essentially all of the carbon atoms in cholesterol (CHOL) can be readily detected and assigned in a lecithin-CHOL bilayer, using MAS, while few can be seen in sonicated bilayers. This leads directly to the observation of cholesterol in intact biological membranes, such as human myelin, where over 50 peaks can be observed, and ca. 40 of these resonances can be assigned to specific, single-carbon-atom sites in the membrane. In addition, a number of experiments with massively deuterated lipids are reported. Combination of cross-polarization techniques with MAS, and difference spectroscopy, leads to the observation of essentially pure sterol spectra (in the presence of lipid) and pure lipid spectra (in the presence of CHOL). Analysis of chemical-shift results indicates a substantial deshielding of chain carbon atom resonances caused by the presence of CHOL, due presumably to increased trans chain segments, an effect mirrored in variable temperature spectra of human myelin, and in goldfish myelin. Taken together, these results suggest a resurgence in NMR studies of membranes may soon occur.

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Peptidyl argininedeiminase 2 CpG island in multiple sclerosis white matter is hypomethylated

Mastronardi

Noor

Wood

et al. 2007

J of Neuroscience Research

172

117

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In previous studies, we documented increased citrullinated myelin basic protein (MBP) was present in MBP isolated from multiple sclerosis (MS) normal appearing white matter (NAWM). This increase was due to the myelin enzyme peptidyl argininedeiminase 2 (PAD2). In this study, we show that methylation of cytosine of the PAD2 promoter in DNA from MS NAWM was decreased to one-third of the level of that in DNA from normal white matter. The PAD2 promoter in DNA from thymus obtained from the same MS patients and white matter DNA from Alzheimer's, Huntington's, and Parkinson's was not hypomethylated. DNA demethylase activity in supernatants prepared from NAWM of MS patients was 2-fold higher than the DNA demethylase from normal, Alzheimer's, Huntington's and Parkinson's disease white matter. The amount of PAD2 enzyme and citrullinated MBP was increased in MS NAWM. The decreased methylation of cytosines in the PAD2 promoter may explain the increased synthesis of PAD2 protein that is responsible for the increased amount of citrullinated MBP, which in turn results in loss of myelin stability in MS brain.

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Characterization of a Recombinant Murine 18.5-kDa Myelin Basic Protein

Bates

Matharu

Ishiyama

et al. 2000

Protein Expression and Purification

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